// title: modifying examples of MIT Supercollider book by Scott Wilson // author: Tiago Morais Morgado // description: // code: /*I would like to thank Stelios Manousakis and Darien Brito for some insights on sc3 programming*/ ( {var a, b, c; a = ({Mix.new(Array.fill(rrand(20,200),SinOsc.ar([[LFDNoise0,LFClipNoise, LFDClipNoise, LFDNoise1, LFDNoise3, LFNoise0, LFNoise1, LFNoise2].choose.kr(rrand(6,12), mul: rrand(60,600), add: rrand(500,2000)), [LFClipNoise, LFDClipNoise, LFDNoise1, LFDNoise3, LFNoise0, LFNoise1, LFNoise2].choose.kr(rrand(6,12), mul: rrand(60,1200), add: rrand(100,200))], 0.3)))*0.0015}); b = ({Mix.new(Array.fill(rrand(2,200),{[RLPF, Formlet,Resonz,Ringz].choose.ar([Dust,Dust2, Blip].choose.ar([12, 15]), [LFClipNoise, LFDClipNoise, LFDNoise0, LFDNoise1, LFDNoise3, LFNoise0, LFNoise2].choose.ar(1/[3, 4], 1500, 1600), 0.02)})) * 0.03}); c = ({Mix.new(Array.fill(200,[CombN, CombC, CombL].choose.ar([SinOsc,FSinOsc, SinOscFB].choose.ar(midicps([LFNoise1,LFClipNoise, LFDClipNoise, LFDNoise0, LFDNoise1, LFDNoise3, LFNoise0, LFNoise2].choose.ar((rrand(1,3)), (rrand(12,48)),[LFSaw,LFCub, LFPar, LFPulse, LFTri, Saw ].choose.ar([(rrand(2.5,10)), (rrand(2.5,5.123*2))], 0, (rrand(1.5,6)), rrand(40,160)))),0, rrand(0.2,0.8)),rrand(0.5,2), (rrand(0.5,0.6)), (rrand(1,4))))) * 0.0004}); Out.ar(0, LeakDC.ar(Mix.new([a+b+c]))) * 0.3;}.scope )